Fusion reactors will need high flux neutron detectors to diagnose the deuterium-deuterium and deuterium-tritium. A candidate detection technique is the Gas Electron Multiplier (GEM). New GEM based detectors are being developed for application to a neutral deuterium beam test facility. The proposed detection system is called Close-contact Neutron Emission Surface Mapping (CNESM). The diagnostic aims at providing the map of the neutron emission due to interaction of the deuterium beam with the deuterons implanted in the beam dump surface. This is done by placing a detector in close contact, right behind the dump. CNESM uses nGEM detectors, i.e. GEM detectors equipped with a cathode that also serves as neutron-proton converter foil. After the realization and test of several small area prototypes, a full size prototype has been realized and tested with laboratory sources. Test on neutron beams are foreseen for the next months. © 2014 American Institute of Physics.
Croci, G., Rebai, M., Cazzaniga, C., Palma, M., Grosso, G., Muraro, A., et al. (2014). Progress on the realization of a new GEM based neutron diagnostic concept for high flux neutron beams. In G. Gorini, F.P. Orsitto, C. Sozzi, M. Tardocchi (a cura di), Fusion Reactor Diagnostics (pp. 194-198). American Institute of Physics Inc. [10.1063/1.4894052].
Progress on the realization of a new GEM based neutron diagnostic concept for high flux neutron beams
CROCI, GABRIELEPrimo
;REBAI, MARICASecondo
;CAZZANIGA, CARLO;MURARO, ANDREA;TARDOCCHI, MARCO;GORINI, GIUSEPPEUltimo
2014
Abstract
Fusion reactors will need high flux neutron detectors to diagnose the deuterium-deuterium and deuterium-tritium. A candidate detection technique is the Gas Electron Multiplier (GEM). New GEM based detectors are being developed for application to a neutral deuterium beam test facility. The proposed detection system is called Close-contact Neutron Emission Surface Mapping (CNESM). The diagnostic aims at providing the map of the neutron emission due to interaction of the deuterium beam with the deuterons implanted in the beam dump surface. This is done by placing a detector in close contact, right behind the dump. CNESM uses nGEM detectors, i.e. GEM detectors equipped with a cathode that also serves as neutron-proton converter foil. After the realization and test of several small area prototypes, a full size prototype has been realized and tested with laboratory sources. Test on neutron beams are foreseen for the next months. © 2014 American Institute of Physics.
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